Abstract
The two methods of determination of such important quantity of heat exchange on a body surface using PHOENICS are suggested in the presentation. The first method consists in a post-processing of results of conjugate heat transfer problem solved by PHOENICS. The second one is solving an inverse heat conduction problem for solid body using PHOENICS. Comparative characteristic of these two methods is represented. (author) 4 refs.
Kostikov, A;
Matsevity, Y
[1]
- Institute of Mechanical Engineering Problems of National Academy of Sciences of Ukraine, Kharkov (Ukraine)
Citation Formats
Kostikov, A, and Matsevity, Y.
Determining convective heat transfer coefficient using phoenics software package.
Finland: N. p.,
1997.
Web.
Kostikov, A, & Matsevity, Y.
Determining convective heat transfer coefficient using phoenics software package.
Finland.
Kostikov, A, and Matsevity, Y.
1997.
"Determining convective heat transfer coefficient using phoenics software package."
Finland.
@misc{etde_357219,
title = {Determining convective heat transfer coefficient using phoenics software package}
author = {Kostikov, A, and Matsevity, Y}
abstractNote = {The two methods of determination of such important quantity of heat exchange on a body surface using PHOENICS are suggested in the presentation. The first method consists in a post-processing of results of conjugate heat transfer problem solved by PHOENICS. The second one is solving an inverse heat conduction problem for solid body using PHOENICS. Comparative characteristic of these two methods is represented. (author) 4 refs.}
place = {Finland}
year = {1997}
month = {Dec}
}
title = {Determining convective heat transfer coefficient using phoenics software package}
author = {Kostikov, A, and Matsevity, Y}
abstractNote = {The two methods of determination of such important quantity of heat exchange on a body surface using PHOENICS are suggested in the presentation. The first method consists in a post-processing of results of conjugate heat transfer problem solved by PHOENICS. The second one is solving an inverse heat conduction problem for solid body using PHOENICS. Comparative characteristic of these two methods is represented. (author) 4 refs.}
place = {Finland}
year = {1997}
month = {Dec}
}